EP0417278A1 - Installation for cutting and canning small fish - Google Patents

Abstract

The installation comprises a processing transporter (1) with cassettes (2) for the fish, divided into pockets (5) by partitions (6). Along the transporter (1) are mounted means (9, 10, 11) for processing the fish. A feeder (18) for empty cans is connected to the end of the transporter (1). Above the transporter (1) an additional transporter (14) is mounted which carries pressure caps (16), part of the latter, situated on the lower branch (17) of the transporter, are located above the pockets (5). The caps (16) are spaced at a pitch equal to the pitch of the cassettes (2) on the transporter (1). Above the transporter (1), at its section (19) where the cassettes (2) pass around the sprocket (20) are mounted curved pressure plates (21). The transporters (1) and (14) are kinematically interconnected. The installation comprises a deflector (23) for feeding the fish from the cassettes into the cans.

Description

Technical field

The invention relates to the fish processing industry and relates in particular to plants for processing and packing small fish in rectangular cans and can preferably be used in production lines for the production of canned fish of the type "oil sprats" or oil sardines "where the fish are canned are packed in two or more layers.

Previous state of the art

In recent times, due to the exhaustion of commercial fish reserves, there has been a significant change in the types and sizes of fish used in canning. The main part of the catch now consists of small fish. For this reason, the problem of processing small fish has become topical. Preserves are usually produced on specialized production lines, which include facilities for processing the fish and packing the fish in cans. These devices usually comprise a technological conveyor with cassettes for the fish, which are divided into cells, and devices for processing the fish arranged in the direction of travel of the technological conveyor (knives for cutting off the head and tail, vacuum heads for removing the fish and other devices) . Since the fish from each cassette are repacked into a separate can at the exit from the technological conveyor, the arrangement of the fish pack in the cassette corresponds to the fish pack in the can. Usually, when packing the fish in one layer, each individual fish or pair of fish that are oriented in opposite directions are reliably fixed by the walls of the cassette cells. But when making canned food from small fish, one layer is not enough to fill the can with the required amount of fish. When packing the fish in two or more layers, the upper one of these layers in the cassette is not reliable fixed enough, which causes disturbances in the fish orientation in the upper layers and the fish falling out of the cassette under the influence of the force of the knives and the other devices for processing the fish.

There is a plant for processing and packing the fish in cans known ("Spravochnik po tekhnologicheskomu oborudovaniju ryboobrabatyvajuschikh proizvodstv", AARomanov and others, 1979, Volume I, page 86), with two parallel arranged technological conveyors with cassettes for fish, Disc knives arranged in the direction of travel of the technological conveyors for separating the fish heads and tails, vacuum heads for removing the fish and a fish washing device. The outputs of both technological conveyors are connected to a means for producing the weighed fish. The plant also has a chute for conveying empty cans and a removal device for repacking the fish into the cans with a means for producing the fish weights.

The presence of a means for producing the fish scales in such a facility complicates their construction and affects their operational reliability. In addition, in such a facility the generation of the required fish weights is only possible from relatively large fish in a narrow range of fish dimensions.

A system for processing and packing small cans of fish is known which includes a technological conveyor with cassettes for fish. Each cassette has a base plate and side walls running transversely to the longitudinal axis of the conveyor and is divided into cells by dividing walls running transversely to said axis.

The transverse sidewalls and partitions of the cassettes have vertical slots that are open at the top edges of these walls, extend the full depth of the cassette, and are in the same direction with the longitudinal axis of the conveyor. In the direction of the technological conveyor are disc knives for separating the fish heads and tails, vacuum heads for gutting the fish and a fish washer. A chute for the supply of empty cans leads to the exit of the technological conveyor.

The system also includes a take-off device for repackaging the fish from the cassettes into the cans, which interacts with the cassettes in the zone where the cassettes run around the sprocket. The removal device is designed in the form of curvilinear plates which engage in the cassette slots on the cassette base plate when these cassettes are in the zone of said interaction. The curvilinear plates expand in the direction of the technological conveyor and are arranged such that the distance between them and the base plates of the cassettes increases in the direction of said zone of interaction. (SU, A, 192379).

When processing small fish in such a system, which are packed in the cassette in two or more layers, it happens that the orientation of the fish in the upper layers is disturbed and the fish fall out of the cassettes. Also on the section where the cassettes run around the sprocket of the technological conveyor, which lies in front of the zone of interaction of the removal device with the cassettes for the fish, it happens that the orientation of the fish in the upper layers and the fish is disturbed fall out of the cassette due to the inclined position of the cassettes on this section.

The disturbance of the orientation of the fish in the upper layers and the falling out of the fish from the cassettes impair the quality of the packaging of the fish in the cans and cause additional work in the processing and packing of small fish in cans to correct the position of the fish and their number in cans by hand.

Disclosure of the invention

The invention has for its object to provide a system for processing small fish, which are packed in cassettes in two or more layers, and for repackaging these fish from the cassettes in cans, which also contains such means and these means carried out in this way and are connected to the cassettes for the fish in such a way that when processing the fish and when packing the fish in cans, disturbances of the fish orientation and falling out of the fish from the cassettes are excluded and consequently the quality of the packing of the fish in the cans are increased and the work involved in processing and packing small fish in cans for the manual correction of the position and the number of fish in the cassettes is reduced.

This task is based on a known system for processing and packing small fish in cans, with a technological conveyor with cassettes for fish, each of which has a base plate and side walls running transversely to the longitudinal axis of the conveyor, and through partition walls running transversely to said axis divided into cells with the arranged in the direction of the technological conveyor: knives for separating the fish heads and tails, vacuum heads for removing the fish and a fish washing device, with a chute for the supply of empty cans to the exit of the technological conveyor and with a removal device for Repackaging of the fish from the cassettes into the cans, which cooperates with the cassettes in the zone which lies on the section where the cassettes run around the sprocket, according to the invention solved in that over the straight section of the technological conveyor, parallel to it additional forth conveyor is arranged, on the supporting member with a division which is the same as the division of the cassettes on the technologiscrien conveyor, hold-down covers are arranged, a part of which is arranged on the lower run of the supporting organ, lies above said cells, and that the technological conveyor on the section where the cassettes run around the sprocket, up to the zone of interaction of the removal device with the cassettes equidistant with the cassettes, at least one curvilinear hold-down plate stretching in the direction of the longitudinal axis of the technological conveyor is arranged, the technological and the additional conveyor is kinematically connected.

The arrangement of an additional conveyor with hold-down cover arranged on its supporting member with one with a division which is the same as the division of the cassettes onto the technological conveyor, a part of which, which is arranged on the lower run of the supporting member, lies above the cells above which rectilinear section of the technological conveyor and parallel to it, and the presence of a kinematic connection between these conveyors ensures, during processing of the fish as they move on the rectilinear section of the technological conveyor, that all the fish layers in the cassette are reliably fixed by means of the hold-down covers and consequently closes them Disturbing the orientation of the fish in the cassettes and the fish falling out of the cassettes.

The arrangement of extended curvilinear hold-down plates equidistant from the cassettes above the technological conveyor on the section where the cassettes run around the sprocket, up to the zone of interaction of the removal device with the cassettes, in the direction of the longitudinal axis of the technological conveyor ensures on said section which the cassettes are in an inclined position, a reliable fixation of all fish layers by means of the said curvilinear hold-down plates and consequently rules out any disturbance in the orientation of the fish and the fish falling out of the cassettes.

Maintaining the orientation of the fish in the cassettes and preventing the fish from falling out of the cassettes during processing of the fish and during the period when the cassettes are in an inclined position, that is to say along the entire transport path of the fish for packing in cans, in turn improves the quality of packing the fish in cans and reduces the work involved in correcting the position and the number of fish in the cassettes by hand.

It is expedient that the height of the partition walls is smaller than the height of the transverse cassette side walls, that the hold-down covers are immersed in the cassettes and that the technological and additional conveyors are kinematically connected to one another via the said transverse side walls and said hold-down covers, the transverse ends Cassette side walls have known vertical slots open at the upper edges, the number in each of said walls corresponding to the number of curvilinear hold-down plates, and said hold-down plates engaging in said slots.

The above-mentioned height ratio of the cassette side walls and the hold-down covers, as well as the fact that the covers are immersed in the cassettes, as a result of the mutual engagement of said walls and covers during the operation of the system, offer the possibility of ensuring the simplest constructional kinematic connection between the conveyors, since no special engine is required to establish this kinematic connection. Since it is assumed in this construction that the fish in the cassettes lie below the height of the upper edges of the transverse side walls, the presence of said slots in these walls and the arrangement of the hold-down plates in these slots ensure that the fish are reliably fixed on the section where the cassettes run around the sprocket.

It is appropriate that each vacuum head for the gutting of the fish be enclosed with a cylindrical shell which is arranged perpendicularly with the possibility of rotating about its axis in the direction in which the linear velocity vector of the surface line closest to the technological conveyor thereof cylindrical shell in the direction of the conveyor, said cylinder cal envelope has horizontal slots which are arranged in several rows and overlap each other on the circumference of the envelope.

The inventors have found that the maximum suction force of the vacuum head arises at a distance of 1 to 2 mm from it, the respective specific distance being determined by the vacuum generated by the suction head. The presence of a vertical cylindrical shell, which has the slots and encompasses the vacuum head, makes it possible, by appropriately adapting the shell thickness, to ensure a constant optimal distance between the vacuum head and the fish, and thereby the maximum suction power of the suction head and thus the increase in effectiveness when gutting the fish. The arrangement of the cylindrical sleeve with the possibility of rotation about its longitudinal axis in the direction in which the linear velocity vector of the surface line of this cylindrical sleeve closest to the technological conveyor points in the running direction of the conveyor, makes it possible to give a linear one by adapting the rotational frequency of the cylindrical sleeve accordingly Speed of said surface line, which is equal to the speed of movement of the fish on the conveyor. The equality of these speeds in turn excludes the effect of the frictional forces and thus ensures that the fish are gutted when they are at rest with respect to the shell, i.e. in a state when gutting is most effective.

The execution of the slots in the cover horizontally, in a multi-row arrangement and covering one another on the circumference of the cover, excludes that the vacuum head is periodically completely covered by the webs of the cylindrical cover, which are arranged on the circumference of the cover between the slots becomes.

It is expedient to arrange a vacuum chamber under the cassette base plates in the running direction of the technological conveyor after the fish washing device, and to remove the moisture from the cassettes and to perforate the cassette base plates.

Such a design enables the excess washing water, which is retained by forces of the surface tension between the fish and also between the fish and the cassette partitions after the fish washing, to be removed from the cassettes. The removal of the excess wash water promotes an increase in the quality of the preserves, since the excess water together with protein residues causes a dirty-looking sales in the preserves or additional energy expenditure for the evaporation of the excess water is required up to a permissible amount.

Brief description of the drawings

Fig.1

schematisch eine Draufsicht auf eine erfindungsgemäse Anlage für das Bearbeiten und das Packen kleiner Fische in Dosen,

Fig.2

schematisch die Anlage in Längsschnitt,

Fig.3

eine Draufsicht auf eine Kassette in vergrößertem Maßstab,

Fig.4

einen Schnitt nach der Linie IV-IV in Fig.3 in vergrößertem Maßstab,

Fig.5

einen Saugkopf im Schnitt in vergrößertem Maßstab und

Fig.6

eine Abwicklung eines Abschnitts einer zylindrischen Hülle.

The invention is explained in more detail, for example, with reference to the drawings. Show it.

Fig. 1

schematically a top view of a system according to the invention for processing and packing small fish in cans,

Fig. 2

schematically the system in longitudinal section,

Fig. 3

a plan view of a cassette on an enlarged scale,

Fig. 4

4 shows a section along the line IV-IV in FIG. 3 on an enlarged scale,

Fig. 5

a suction head in section on an enlarged scale and

Fig. 6

a development of a section of a cylindrical shell.

Best embodiment of the invention

The system contains a technological conveyor I (Fig.1), which has cassettes 2 for fish, which are connected to each other on the base plates 3 (Fig.4) by joints (not shown in the figures, so as not to complicate the drawings). The base plates 3 of the cassettes have a perforation 4. Each cassette 2 is divided into cells 5 by partitions 6, which are fastened to the cassette base plate 3 and parallel to the side walls 8 running transversely with respect to the longitudinal axis 7 (FIG. 1) of the conveyor 1 (Fig.4) of the cassettes 2 are arranged. The height of the partition walls 6 is smaller than the height of the side walls 8. Variants of the system are possible in which the height of the said partition walls is equal to the height of the side walls of the cassettes. In the direction of travel of the technological conveyor 1 (FIG. 1), disc knives 9 for separating the fish heads and tails, vacuum heads 10 for removing the fish and fish washing devices 11 are arranged on both sides of the board. After the fish washing device 11, a vacuum chamber 12 (FIG. 2) for removing the moisture from the cassettes is arranged under the base plates 3 (FIG. 4) of the cassettes 2.

An embodiment of the system without a vacuum chamber 12 is possible. An additional conveyor 14 is arranged above the rectilinear section 13 of the technological conveyor 1, and hold-down covers 16 are fastened to its supporting member 15 with a division which is the same as the division of the cassettes 2 on the technological conveyor 1. Each of the covers 16, which is located on the lower run 17 of the supporting member 15, lies above the cells of the corresponding cassette 2 and is immersed in this cassette. The height of the cover 16 in the system is selected such that optimum hold-down forces for the fish in the cassettes 2 are achieved, which on the one hand ensure reliable fixing of the fish and on the other hand the integrity of these fish. The technological conveyor 1 and the additional conveyor 14 are kinematically connected to one another via the walls 8 of the cassettes 2 and the hold-down cover 16.

In the design variant of the system, when the height of the partition walls is equal to the height of the transverse side walls of the cassettes, and consequently the hold-down covers are above the level of the cassettes, the technological and the additional conveyors are connected to one another by a separate engine (not in the figures shown so as not to complicate the drawings). A chute 18 for the supply of empty cans leads to the exit of the technological conveyor 1 (FIG. 1). About the technological conveyor 1 are on a section 19 (FIG. 2), where the cassettes 2 run around a sprocket 20, curved curvilinear hold-down plates 21 (FIG. 2) arranged with the cassettes 2 in the direction of the longitudinal axis 7 (FIG. 1) of the technological conveyor 1. The hold-down plates 21 extend to zone 22 of the interaction of a removal device 23 for repackaging the fish from the cassettes into the cans with the cassettes 2 and engage in vertical slots 24 (FIG. 3) in the walls 8 of the cassettes 2, which stand open on the upper edges 25 (FIG. 4) of said cassettes. The number of slots 24 (Fig.3) in each of the walls 8 corresponds to the number of hold-down plates 21 (Fig.2). The number of hold-down plates 21 is in turn chosen on the basis of the condition that the best possible fixation of the fish in the cassettes is ensured, and on the basis of design considerations.

In the embodiment variant of the system, if the height of the said partition walls is equal to the height of the transverse walls of the cassettes, the hold-down plates 21 lie above the cassettes 2. The removal device 23 is designed in the form of plates which are located in zone 22 on the base plates of the Cassettes engage in the vertical slots 24 (FIG. 3) in the walls 8 of the cassettes 2 and in vertical slots 26, which are made in the partition walls 6. Said plates expand in the direction of travel of the technological conveyor and are arranged in such a way that the distance between them and the base plates of the cassettes increases in the direction of said zone 22 (FIG. 2). Other known embodiments of the design of the removal device 23 are also possible. Each vacuum head 10 (Fig. 1) for gutting the fish is surrounded by a cylindrical shell 27 (Fig.5) which is arranged vertically and with a drive for its rotation about its longitudinal axis 28 (not shown in the figures, around the drawings) not too complicated) is coupled. The cylindrical sleeve 27 has horizontal slots 29 on the entire circumference, which are arranged in several rows. The horizontal Slots 29 of the various rows overlap each other on the circumference of the envelope 27. The thickness of the envelope can range from 1 to 2 mm and is granted based on the conditions of use of the maximum suction power of the vacuum head 10.

The system works as follows.

The fish packed in the cassettes 2 (FIG. 2) in two or more layers according to one of the known methods, for example manually or mechanically with the aid of fish orientation devices (not shown in the figures, in order not to complicate the drawings) have been moving on the rectilinear section 13 of the technological conveyor 1 (Fig.1), where successively the severing of the fish heads and tails with the help of the disc knives 9, the removal of the fish with the help of the vacuum head 10, the washing of the fish with With the help of the fish washing device 11 and the removal of the moisture from the cassettes 2, which remains after washing the fish, via the perforation 4 (FIG. 4) of the base plates 3 of the cassettes using the vacuum chamber 12 (FIG. 2). The cylindrical shell 27 (FIG. 5) enclosing the vacuum head 10 is set by a drive (not shown in the figures, in order not to complicate the drawings) to rotate about its longitudinal axis 28 in the direction in which the linear velocity processor is the technological conveyor 1 (Fig.1) closest surface line of this cylindrical envelope 27 (Fig.5) in the direction of the technological conveyor 1 points. The cylindrical shell rotates at a frequency at which the linear speed of the surface line of this shell is equal to the speed of the technological conveyor 1. The equality of these speeds enables the fish to be gutted when the fish is relatively at rest with respect to the envelope 27, i.e. increasing the effectiveness of taking out.

In addition, thanks to a corresponding choice of the optimal thickness of the cylindrical shell 27, the effectiveness in gutting the fish increases by using the maxi paint suction power of the vacuum head 10. During the processing of the fish on the rectilinear section 13 (Fig.2) of the technological conveyor 1, they are reliably fixed in the cassettes 2 by means of the hold-down cover 16 of the additional conveyor 14, thereby disrupting the fish orientation and falling out Fish from the cassettes 2 are made impossible.

The supporting member 15 of the additional conveyor 14 moves through the interaction between the hold-down covers 16 and the transverse side walls 8 of the cassettes 2. Since the hold-down covers 16 are arranged with a division which is the same as the division of the cassettes 2, the said covers ensure this Fix the fish in each cassette. On the section 19 where the cassettes 2 run around the sprocket 20 of the technological conveyor 1, up to the zone 22 of the interaction of the removal device 23 with the cassettes, that is to say during the time when the cassettes 2 with the fish have an inclined position the reliable fixation of the fish by means of curvilinear hold-down plates 21. In the zone 22 of the interaction of the removal device 23 with the cassettes 2, the plates of the removal device engage on the base plates 3 (FIG. 3) of the supplied cassettes in the vertical slots 24 in the walls 8 of the cassettes and in the slots 26 in the partition walls 6 and push the fish into cans 30 (Fig. 2), which are fed via the chute 18. Other known constructions of the removal devices for repackaging the fish from the cassettes into the cans can also be used in the invention.

Industrial applicability

Most advantageously, the invention can be found in production lines for making canned goods from small fish packed in tins in two or more layers.

Claims (4)

Equipment for processing and packing small fish in cans, with a technological conveyor with cassettes for the fish, each of which has a base plate and side walls running transversely to the longitudinal axis of the conveyor and is divided into cells by dividing walls running transversely to said axis the arranged in the direction of the technological conveyor: knives for separating the fish heads and tails, vacuum heads for removing the fish and a fish washing device, with a chute for feeding empty cans to the exit of the technological conveyor and with a removal device for repacking the fish from the cassettes into the cans which cooperate with the cassettes in the zone lying on the section where the cassettes (2) run around the sprocket, characterized in that above the rectilinear section (13) of the technological conveyor (1) parallel to it an additional conveyor (14) is arranged that on load-bearing member (15) of the additional conveyor (14) are arranged with a division that is the same as the division of the cassettes (2) on the technological conveyor (1), hold-down cover (16), a part of which is located on the lower run (17th ) of the supporting member (15) is located above the said cells (5), and that over the technological conveyor (1) to the section (19) where the cassettes (2) run around the sprocket (20) until Zone (22) of the interaction of the removal device (23) with the cassettes (2) equidistant from the cassettes (2) is arranged at least one curvilinear hold-down plate (21) which extends in the direction of the longitudinal axis (7) of the technological conveyor (1), whereby the technological conveyor (1) and the additional conveyor (14) are kinematically connected to one another. Installation according to claim 1, characterized in that the height of said partition walls (6) is smaller than the height of the transverse side walls (8) of the cassette, that the hold-down cover (16) dipping into the cassette (2) and that the technological conveyor (1) and the additional conveyor (14) is kinematically connected to one another via said transverse side walls (8) of the cassettes and said hold-down covers (16), the transverse side walls (8) of the cassettes (2) being known per se and on the upper edges (25) have open vertical slots (24), the number in each of said walls (8) corresponding to the number of curvilinear hold-down plates (21), and said hold-down plates (21) engage in said slots (24). Installation according to one of claims 1 and 2, characterized in that each vacuum head (10) for taking out the fish is covered with a cylindrical casing (27) which is arranged vertically and with the possibility of rotation about its longitudinal axis (28) in the direction in which the linear velocity vector of the surface line of this cylindrical casing closest to the technological conveyor (1) points in the running direction of the conveyor (1), said cylindrical casing (27) having horizontal slots (25) which are arranged in several rows and cover each other on the circumference of the envelope. Installation according to one of claims 1 to 3, characterized in that a vacuum chamber (12) for removing the moisture from the cassettes under the base plates (3) of the cassettes (2) in the running direction of the technological conveyor (1) after the fish washing device (11) is arranged and that the base plates (3) of the cassettes (2) are perforated.

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